Coating for HighTemperature
Acid Immersion
1392
Belzona 1392 (Ceramic HT2) is a two component
high temperature coating system designed to resist
hydrocarbons and aqueous solutions. This product
was specifically designed to exhibit excellent chemical
resistance, particularly in systems contaminated by acid.
It also provides excellent erosion resistance.
CURE TIMES
T E C H N I C A L D ATA
Belzona 1392 (Ceramic HT2) can operate continuously
in immersed conditions at temperatures up to 120°C
(248°F). It also has excellent resistance to process
chemicals and conditions such as steam out and rapid
depressurisation.
Mixing ratio (base:solidifier)
20 : 1 by weight
Working life
35 minutes at 20°C (68°F)
Shelf life
2 years
Dry heat resistance
230°C (446°F)
Adhesion (tensile shear)
Mild steel: 18.13 MPa (2,630 psi) at 20°C (68°F) cure
Compressive strength
102.04 MPa (14,800 psi) at 20°C (68°F) cure
Volume capacity
439 cm³ (26.8 in³) / 1 kg
Heat distortion temperature
49°C (118°F) at 20°C (68°F) cure
Coverage rate
0.73 m² (7.9 ft²) / 1 kg at 600 microns (24 mils)
Abrasion resistance
H10 - 145 mm³ 100°C (212°F) cure, wet
Temperature
20°C (68°F)
30°C (86°F)
40°C (104°F)
Time until inspection
12 hours
5 hours
3 hours
Time until full service
96 hours
18 hours
10 hours
Time until dry post cure (if required)
12 hours
5 hours
3 hours
Time until wet post cure (if required)
28 hours
8 hours
5 hours
*Please consult the Product Specification Sheet (PSS) and Instructions for Use (IFU) for the latest technical data.
HIGH
T E M P E R AT U R E
R E S I S TA N T
C H E M I C A L R E S I S TA N T
S O LV E N T- F R E E
HIGH COMPRESSIVE
STRENGTH
www.belzona.com/1392
SIMPLE
A P P L I C AT I O N
1000 Series
BELZONA 1392
Key Benefits:
Application Examples:
Excellent resistance to corrosion
This coating is specially designed to provide erosioncorrosion protection in acid contaminated water/
hydrocarbon systems.
High chemical resistance
This material resists water, aqueous solutions,
hydrocarbons in acid contaminated water and
hydrocarbons up to temperatures of 120°C (248°F) in
continuous immersion.
Simple application
This easy to use epoxy coating can be applied by brush
or applicator eliminating the need for specialist tools
and will cure at room temperature.
Screw conveyors protected
Engine block coated
Application Areas:
•
Condensate extraction pumps
•
Scrubber units
•
Condensate return tanks
•
Rotary reactor
•
Evaporators
•
Calorifiers
•
Heat exchanger barrels
•
Distillation units
•
Separators
•
Slug catchers
•
Autoclaves
•
Absorber towers
Key
Excellent
Good
Moderate
*
Ex
No significant deterioration/barrier properties retained for greater than 52 weeks.
Suitable for all applications including long term immersion
G
No significant deterioration/barrier properties retained for 12-52 weeks.
Suitable for short short-term immersion and general chemical contact
M
No significant deterioration/barrier properties retained for 1-12 weeks.
Suitable for applications involving short term chemical contact e.g. spillage, splash
or secondary containment
Ex
Inorganic Acids
Chemical name
(synonym)
Hydrochloric
acid
Nitric acid
Chemical Formula
(synonym)
HCI
HNO3
Nitrous acid
HNO2
Phosphoric acid
H3PO4
Sulphuric acid
Product must be post cured to deliver quoted chemical resistance
H2SO4
Chemical Resistance
20°C
68°C
60°C
140°C
36%
G
G
20%
Ex*
G
10%
Ex*
G
5%
Ex
Ex
Concentration
3%
Ex
Ex
20%
Ex*
M
10%
Ex*
G
5%
Ex*
G
20%
Ex*
M
40%
Ex*
G
20%
Ex*
G
10%
Ex*
G
5%
Ex
G
98%
G*
M
70%
Ex*
Ex
50%
Ex*
Ex
30%
Ex*
Ex
20%
Ex*
Ex
10%
Ex*
Ex
5%
Ex*
Ex
For more information, please contact your local Belzona representative:
QUALITY PRODUCTS – TECHNICAL SUPPORT
Belzona products are manufactured under an ISO 9001
Registered Quality Management System.
Belzona has a global distribution network of over 140
Distributors operating in 120 countries. Local support is
provided by a trained Technical Consultant who will diagnose
the problem, recommend the solution and provide 24-hour,
on-site application supervision and advice.
Copyright © Belzona International Limited 2019
www.belzona.com/1392
FN:10035(E)04/19